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Supervised Learning: Classification

This IBM Web-Based Training (WBT) is Self-Paced and includes: - Instructional content available online for duration of course - Visuals without hands-on lab exercises This course introduces you to...

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$475 USD GSA  $257.78
Course Code W7103G-SPVC
Duration 1.5 days
Available Formats Self Paced

This IBM Web-Based Training (WBT) is Self-Paced and includes:
- Instructional content available online for duration of course
- Visuals without hands-on lab exercises

This course introduces you to one of the main types of modeling families of supervised Machine Learning: Classification. You will learn how to train predictive models to classify categorical outcomes and how to use error metrics to compare across different models. The hands-on section of this course focuses on using best practices for classification, including train and test splits, and handling data sets with unbalanced classes.

Skills Gained

By the end of this course you should be able to: 

- Differentiate uses and applications of classification and classification ensembles. 

- Describe and use logistic regression models. 

- Describe and use decision tree and tree-ensemble models. 

- Describe and use other ensemble methods for classification. 

- Use a variety of error metrics to compare and select the classification model that best suits your data. 

- Use oversampling and undersampling as techniques to handle unbalanced classes in a data set.

Who Can Benefit

This course targets aspiring data scientists interested in acquiring hands-on experience with Supervised Machine Learning Classification techniques in a business setting.

Prerequisites

To make the most out of this course, you should have familiarity with programming on a Python development environment, as well as fundamental understanding of Data Cleaning, Exploratory Data Analysis, Calculus, Linear Algebra, Probability, and Statistics.

Course Details

Course Outline

1. Logistic Regression

2. K Nearest Neighbors

3. Support Vector Machines

4. Decision Trees

5. Ensemble Models

6. Modeling Unbalanced Classes